Synergies among multiple energy sectors in an integrated electricity and heat system (IEHS)
improve energy efficiency, economic operation and renewable energy utilization, thus …

The energy hub is considered a unit where multiple energy carriers can be converted,
conditioned, and stored, thereby providing the functions of input, output, conversion, and …

The power grid infrastructure encounters multiple uncertainties such as unprecedented
energy generation from non-dispatchable resources, erratic load, intensifying energy …

This paper proposes a robust day-ahead scheduling method for a multi-carrier energy
system (MES), which would enhance the flexibility of power systems with a large sum of …

The operational flexibility of electric power systems (EPS) is restricted by combined heat and
power (CHP) units that act to maintain sufficient heating supply. By exploiting the pipeline …

The exploration of future energy system trajectories needs to be based on long-term
scenarios, which in turn requires using long-term modelling tools. Introducing a strong …

This paper focuses on the coordinated expansion planning of the integrated natural gas and
electrical power systems with bi-directional energy conversion. Both the Gas-fired Power …

In this paper, we propose a robust real-time wind power dispatch framework for coordinating
wind farms, automatic generation control (AGC) units, and nonAGC units, which enables …

As the increasing penetration of wind and PV generations in island microgrids, the
intermittent nature of renewable energy resources and randomness of load demands are …

The high penetration level of renewable energy is thought to be one of the basic
characteristics of future smart grids. Wind power, as one of the most increasing renewable …